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I have a function whose input argument can either be an element or a list of elements. If this argument is a single element then I put it in a list so I can iterate over the input in a consistent manner.

Currently I have this:

def my_func(input):
    if not isinstance(input, list): input = [input]
    for e in input:

I am working with an existing API so I can't change the input parameters. Using isinstance() feels hacky, so is there a proper way to do this?

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re: proper. In Python the usual term is 'Pythonic'. It acknowledges that there are many ways to do something but that some are more in the spirit of the language. –  Michael Easter Sep 13 '09 at 3:54

8 Answers 8

up vote 6 down vote accepted

I like Andrei Vajna's suggestion of hasattr(var,'__iter__'). Note these results from some typical Python types:

>>> hasattr("abc","__iter__")
>>> hasattr((0,),"__iter__")
>>> hasattr({},"__iter__")
>>> hasattr(set(),"__iter__")

This has the added advantage of treating a string as a non-iterable - strings are a grey area, as sometimes you want to treat them as an element, other times as a sequence of characters.

Note that in Python 3 the str type does have the __iter__ attribute and this does not work:

>>> hasattr("abc", "__iter__")
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Don't you mean my suggestion? –  Unknown Sep 13 '09 at 4:35
My comment on Peter's answer was first. Ha! :P –  Andrei Vajna II Sep 15 '09 at 10:15

Typically, strings (plain and unicode) are the only iterables that you want to nevertheless consider as "single elements" -- the basestring builtin exists SPECIFICALLY to let you test for either kind of strings with isinstance, so it's very UN-grotty for that special case;-).

So my suggested approach for the most general case is:

  if isinstance(input, basestring): input = [input]
    try: iter(input)
    except TypeError: input = [input]
    else: input = list(input)

This is THE way to treat EVERY iterable EXCEPT strings as a list directly, strings and numbers and other non-iterables as scalars (to be normalized into single-item lists).

I'm explicitly making a list out of every kind of iterable so you KNOW you can further on perform EVERY kind of list trick - sorting, iterating more than once, adding or removing items to facilitate iteration, etc, all without altering the ACTUAL input list (if list indeed it was;-). If all you need is a single plain for loop then that last step is unnecessary (and indeed unhelpful if e.g. input is a huge open file) and I'd suggest an auxiliary generator instead:

def justLoopOn(input):
  if isinstance(input, basestring):
    yield input
      for item in input:
        yield item
    except TypeError:
      yield input

now in every single one of your functions needing such argument normalization, you just use:

 for item in justLoopOn(input):

You can use an auxiliary normalizing-function even in the other case (where you need a real list for further nefarious purposes); actually, in such (rarer) cases, you can just do:

 thelistforme = list(justLoopOn(input))

so that the (inevitably) somewhat-hairy normalization logic is just in ONE place, just as it should be!-)

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Calling iter(input) and ignoring its result isn't a waste of resources? Wouldn't be better if you would only check the existence of the __iter__ attribute? –  Cristian Ciupitu Sep 13 '09 at 2:53
@Cristian, i don't think that is expensive, may be one function call which will be doing almost same which you suggest and also it doesn't rely on checking magic attribute __iter__ –  Anurag Uniyal Sep 13 '09 at 3:59
try/iter(x)/except is not especially costly. AND, iter(x) succeeds for some object w/o __iter__ (e.g an object w/a suitable __getitem__ accepting numeric keys but no __iter__). –  Alex Martelli Sep 13 '09 at 3:59
This is so useful that I wish it was part of the standard library. –  Dana the Sane Sep 21 '10 at 15:44

You can put * before your argument, this way you'll always get a tuple:

def a(*p):
  print type(p)
  print p

>>> <type 'tuple'>
>>> (4,)

a(4, 5)
>>> <type 'tuple'>
>>> (4,5,)

But that will force you to call your function with variable parameters, I don't know if that 's acceptable for you.

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This doesn't work for him because he said he can't change the arguments and someone could enter [1,2] and it would be doubly wrapped as ([1,2],) –  Unknown Sep 13 '09 at 2:29
Ho yeah sorry I didn't saw the part where he said he was working on an api. my fault. –  attwad Sep 13 '09 at 2:36

You can do direct type comparisons using type().

def my_func(input):
    if not type(input) is list:
        input = [input]
    for e in input:
        # do something

However, the way you have it will allow any type derived from the list type to be passed through. Thus preventing the any derived types from accidentally being wrapped.

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this kind of direct comparison isn't a great idea - if a user subclasses list, for example, your type() based comparison will break immediately. isinstance() is closer to what the OP wants. –  Peter Sep 13 '09 at 2:23
Exactly, I was giving alternatives, but my "however" remark tells him that his way is still better. –  Soviut Sep 13 '09 at 5:20

Your aproach seems right to me.

It's similar to how you use atom? in Lisp when you iterate over lists and check the current item to see if it is a list or not, because if it is a list you want to process its items, too.

So, yeah, don't see anything wrong with that.

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That is an ok way to do it (don't forget to include tuples).

However, you may also want to consider if the argument has a __iter__ method or __getitem__ method. (note that strings have __getitem__ instead of __iter__.)

hasattr(arg, '__iter__') or hasattr(arg, '__getitem__')

This is probably the most general requirement for a list-like type than only checking the type.

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First, there is no general method that could tell a "single element" from "list of elements" since by definition list can be an element of another list.

I would say you need to define what kinds of data you might have, so that you might have:

  • any descendant of list against anything else
    • Test with isinstance(input, list) (so your example is correct)
  • any sequence type except strings (basestring in Python 2.x, str in Python 3.x)
    • Use sequence metaclass: isinstance(myvar, collections.Sequence) and not isinstance(myvar, str)
  • some sequence type against known cases, like int, str, MyClass
    • Test with isinstance(input, (int, str, MyClass))
  • any iterable except strings:
    • Test with


        input = iter(input) if not isinstance(input, str) else [input]
    except TypeError:
        input = [input]
share|improve this answer

This seems like a reasonable way to do it. You're wanting to test if the element is a list, and this accomplishes that directly. It gets more complicated if you want to support other 'list-like' data types, too, for example:

isinstance(input, (list, tuple))

or more generally, abstract away the question:

def iterable(obj):
    return True
  except TypeError:
    return False

but again, in summary, your method is simple and correct, which sounds good to me!

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I think you can use something like hasattr(a, '__iter__') to see if it's a 'list-like' data type. –  Andrei Vajna II Sep 13 '09 at 2:22
-1. Iterables do not necessarily have a len, nor are they necessarily finite. –  Triptych Sep 13 '09 at 2:46

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